JP4371339B2 - Reception area monitoring / control method and broadcasting system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a broadcasting system using terrestrial digital signals, and in particular, when receiving signals at the same frequency from many areas, eliminates interference due to overreach of transmission radio waves from other areas and only transmits radio waves in its own area. The present invention relates to a reception area monitoring / control method and a broadcasting system for realizing stable reception.
[0002]
[Prior art]
A conventional terrestrial digital broadcasting system will be described with reference to FIG. FIG. 3 is a schematic diagram showing a part of a conventional terrestrial digital broadcasting system.
As shown in FIG. 3, a part of a conventional terrestrial digital broadcasting system includes an A-area transmission device 1 provided at a transmission station in A-area, and a B-area transmission device 2 provided at a transmission station in B-area. Basically, a repeater 3 for relaying between the A-area transmission device 1 and the B-area transmission device 2, a receiver 4 provided in the A-area reception area, and a receiver 5 provided in the B-area reception area It is structured.
[0003]
Next, the operation in the above system will be described.
The A district transmitter 1 that has received the broadcast radio wave transmits the broadcast content to the repeater 3 and also transmits the broadcast content to the receiver 4 of a general viewer provided in the A district reception area.
The repeater 3 relays and amplifies the radio wave received from the A area transmission apparatus 1 and transmits it to the B area transmission apparatus 2.
The B area transmitter 2 that has received the broadcast radio wave from the repeater 3 transmits the broadcast contents to the general viewer receiver 5 provided in the B area reception area.
[0004]
As a conventional technique related to digital broadcasting, Japanese Patent Application Laid-Open No. 7-86981 “Digital Signal Transmission Method” published on March 31, 1995 (Applicant: Japan Broadcasting Corporation, Inventor: Hisaoka Kato et al.) )
In this technology, analog signals to be transmitted are converted into high-speed and low-speed digital signals by hierarchical encoding means, and these signals are transmitted as a high-speed main modulation signal and a low-speed spread spectrum modulation signal. Reproduction is performed by hierarchical decoding means controlled by the reception CN ratio, and reception is possible even with a low C / N in the microwave band.
[0005]
[Problems to be solved by the invention]
However, in the conventional digital broadcasting system, the receiver 4 in the A area receiving area may receive the transmitted radio wave from the B area transmitting apparatus 2 together with the transmitted radio wave from the A area transmitting apparatus 1. A similar phenomenon may occur in the receiver 5 in the district reception area. This phenomenon is referred to as “overreach” of the transmission radio wave, and interference with the transmission radio wave that should be received occurs. There was a problem of becoming unstable.
Note that the degree of overreach varies depending on the season.
[0006]
The present invention has been made in view of the above circumstances, and a reception area monitoring / control method and a broadcasting system capable of stabilizing the reception state by eliminating the interference of the transmission radio wave in the area caused by the overreach of the transmission radio wave. The purpose is to provide.
[0007]
[Means for Solving the Problems]
The present invention for solving the problems of the above-described conventional example is a terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and includes a plurality of transmitting station transmitting devices and an area of each transmitting station. and a receiver for receiving a radio wave transmitted from the transmitter of the transmitting station, the receiving area monitoring and control how when the receiver receives a radio wave transmitted from the transmitter at the transmission stations other than the area area In this case, the transmitting devices at a plurality of transmitting stations transmit different identifiers to the transmission radio waves, and each receiver transmits the received radio waves to confirm whether there is an identifier in the received transmission radio waves. when confirming the presence identifier transmission, it recognizes whether the radio wave transmitted from other areas of either or otherwise a radio wave transmitted from the own area by the identifier, acquires the radio wave transmitted from the own area, the received When it is confirmed that there is no identifier in the wave, it recognizes whether it is a transmission radio wave from its own area or a transmission radio wave from other areas according to the time it receives the transmission radio wave, and the transmission radio wave from its own area Obtain and recognize the reception status of transmitted radio waves from other areas to the transmitting device at the transmitting station in the other area, and the transmitting device reduces the transmitted radio waves to other areas according to the notified reception status. This control performs angle control, transmission power control, or a combination of both, and eliminates interference due to overreach of transmission radio waves from other areas, and can stably receive only transmission radio waves in its own area.
[0008]
The present invention is also a terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and transmitting devices from a plurality of transmitting stations and transmitting devices from the transmitting stations in each transmitting station area. In a broadcasting system that includes a receiver that receives a radio wave, and the receiver also receives a transmission radio wave from a transmitting device at a transmitting station in an area other than the area, the transmitting device at the transmitting station transmits an identifier unique to the transmitting station. Is a transmitter that transmits or does not add to the receiver , and the receiver transmits the radio wave from its own area from the identifier unique to the transmitting station given to the received radio wave, or from other areas recognizing whether a radio wave, wherein the first transmission radio wave confirmation means for acquiring a radio wave transmitted from the own area, the transmission to or otherwise is a radio wave from the own area by between when you receive transmission waves Recognizing whether the radio wave transmitted from the area, the second transmission radio wave confirmation means for acquiring a radio wave transmitted from the own area, the transmitting station of the reception status of radio waves transmitted from the recognized other areas the other areas A receiver having a reception status notification means for notifying the transmission device, and the transmission device controls the chilled angle of the antenna and / or the transmission power so as to reduce the transmission radio wave to other areas according to the notified reception status. Overreach reduction control means for performing control combined with the above, can eliminate interference due to overreach of transmission radio waves from other areas, and can stably receive only the transmission radio waves of its own area.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described with reference to the drawings.
The function realizing means described below may be any circuit or device as long as it can realize the function, and part or all of the function can be realized by software. is there. Furthermore, the function realizing means may be realized by a plurality of circuits, and the plurality of function realizing means may be realized by a single circuit.
[0011]
A reception area monitoring / control method and a broadcasting system according to an embodiment of the present invention are a terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and includes a transmission device of a plurality of transmitting stations, and each transmitting station A receiver that receives a transmission radio wave from the transmission device of the transmitting station in the area, and when the receiver also receives a transmission radio wave from a transmission device of a transmission station in an area other than the area, , Recognizing from the identifier (recognition number) given to the transmitted radio wave from the transmitting device at the transmitting station whether it is a transmitted radio wave from its own area or from other areas, The transmission radio wave from the other area is acquired, interference due to the over-reach of the transmission radio wave from other areas is eliminated, and only the transmission radio wave in the own area can be stably received.
Here, the process of recognizing the transmission radio wave from the self-other area using the identifier (recognition number) corresponds to the first process in the transmission radio wave recognition means described later.
[0012]
Further, the reception area monitoring / control method and the broadcasting system according to the embodiment of the present invention are a terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and each includes a transmitting device of a plurality of transmitting stations, A receiver that receives a transmission radio wave from the transmission device of the transmitting station in the area of the transmitting station, and the receiver receives the transmission radio wave from a transmitting device of a transmitting station in an area other than the area. The machine recognizes whether it is a transmission radio wave from its own area or a transmission radio wave from other areas by the delay time to receive the transmission radio wave, and acquires the transmission radio wave from its own area, Interference due to overreach of transmission radio waves from other areas is eliminated, and only transmission radio waves in the own area can be stably received.
Here, the process of recognizing the transmission radio wave from the self-other area using the delay time corresponds to the second process in the transmission radio wave recognition means described later.
[0013]
In addition, in the reception area monitoring / control method and broadcasting system according to the embodiment of the present invention, in the above invention, the receiver notifies the transmission device of the transmitting station in the other area of the reception status of the transmission radio wave from the other area. Then, the transmission device performs antenna tilde angle control, transmission power control, or a combination of both so as to reduce transmission radio waves to other areas according to the notified reception status. By controlling the antenna or the like of the transmission device, interference due to overreach of transmission radio waves from other areas can be eliminated, and only the transmission radio waves in the own area can be received stably.
[0014]
Here, the notification of the reception status of transmission radio waves from other areas is processed by the reception status notification means in the receiver, as will be described later, and the antenna is controlled according to the notification of the reception status. Is controlled by the overreach reduction control means.
[0015]
A terrestrial digital broadcasting system according to an embodiment of the present invention will be described with reference to FIG. FIG. 1 is a schematic diagram showing a part of a terrestrial digital broadcasting system according to an embodiment of the present invention. In addition, the same code | symbol is attached | subjected and demonstrated about the part which takes the structure similar to FIG.
As shown in FIG. 1, a part of the terrestrial digital broadcasting system according to the present embodiment (this system) is provided at the A-area transmitting device 1 provided at the A-area transmitting station and at the B-area transmitting station. The B-area transmitting device 2, the repeater 3 that relays between the A-area transmitting device 1 and the B-area transmitting device 2, the receiver 4 for general viewers provided in the A-area receiving area, It is basically composed of a receiver 5 for general viewers provided in the district reception area.
[0016]
The basic functions and operations of each part in the system are the same as those shown in FIG. Therefore, differences will be described in detail.
The transmitting device 1 of the A district transmitting station transmits the broadcast radio wave with the transmitting station identification number 01 assigned thereto.
The transmitting device 2 of the B area transmitting station assigns the transmitting station's identification number 02 to the broadcast radio wave and transmits it.
[0017]
Each of the receivers 4 and 5 transmits to a transmitting device in another area the transmission radio wave recognition means for performing transmission radio wave recognition processing in its own area in order to monitor the overreach of the transmission radio wave, Reception status notifying means for performing a notification of reception status notification is provided.
[0018]
The transmission radio wave recognition unit is realized by either the first process or the second process. The first processing in the transmission radio wave recognition means is to acquire the transmission station identification numbers 01 and 02 given to the broadcast radio waves transmitted from the transmission apparatuses 1 and 2 upon reception, and the recognition number (transmission station number). By recognizing the transmission radio waves of the own area and the transmission radio waves of other areas, the user selects and acquires only the transmission radio waves of the own area.
[0019]
Specifically, the receiver 4 in the A district receiving area receives the transmission radio wave assigned the identification number 01 from the transmitting device 1 in the A district transmitting station, and receives the identification number 02 from the transmitting device 2 in the B district transmitting station. Receive the assigned transmission radio wave. In the receiver 4, the transmission radio wave identification number of its own area is set to “01” in advance, and the radio wave of the identification number 01 is recognized, selected, and taken in.
[0020]
Further, the receiver 5 in the B area receiving area receives the transmission radio wave assigned with the identification number 01 from the transmitting apparatus 1 in the A area transmitting station and is given the identification number 02 from the transmitting apparatus 2 in the B area transmitting station. Receives transmission radio waves. In the receiver 5, the transmission radio wave identification number of its own area is set to “02” in advance, and the transmission radio wave of the identification number 02 is recognized, selected, and taken in.
[0021]
The second processing in the transmission radio wave recognition means is performed in an area where the transmission station number cannot be assigned from the transmission apparatus of the transmission station, and uses the delay time of the received radio wave to transmit the transmission radio wave of its own area. And transmission radio waves in other areas.
[0022]
For example, the receiver 4 in the A area receiving area receives the transmission radio wave for the A area receiving area first from the transmitting apparatus 1 in the A area transmitting station, and then from the transmitting apparatus 2 in the B area transmitting station. The transmission radio wave for the B area reception area is received with a delay.
[0023]
Therefore, the receiver 4 in the A area receiving area recognizes the transmission radio wave received first (zero delay time) as the transmitting radio wave of its own area, and the receiver 5 in the B area receiving area thereafter (delay time T). The received transmission radio wave is recognized as the transmission radio wave of its own area.
[0024]
In other words, the receivers in the corner area reception area are set in advance with the delay time (including zero delay time) after receiving the first transmission radio wave, the timing of receiving the transmission radio wave of its own area in advance. The transmission radio wave received when the delay time matches is used as the transmission radio wave of the own area.
[0025]
In the first and second processes of the transmission radio wave recognition means, the transmission radio wave of the own area is recognized and, as a result, the reception status of the transmission radio wave from other areas is also recognized.
[0026]
Next, the reception status notifying unit is a unit that notifies the transmission device of the transmitting station in the other area of the reception status of the transmission radio wave from the other area recognized in the first and second processes of the transmission radio wave recognition unit.
In the example of FIG. 1, the reception status is notified using a wired general public line or the like, but may be notified wirelessly using a wireless device.
[0027]
Specifically, the receiver 4 in the A area receiving area notifies the transmitting device 2 of the B area transmitting station of data (reception report) regarding the reception status of the transmission radio wave from the area of the B area.
Further, the receiver 5 in the B area receiving area notifies the transmitting device 1 of the A area transmitting station of data (reception report) regarding the reception status of the transmission radio wave from the area of the A area.
[0028]
Further, the transmitting device at the transmitting station that has received the reception report performs overreach reduction control.
The overreach reduction control in the transmission apparatus will be described with reference to FIG. FIG. 2 is a schematic diagram for explaining overreach reduction control according to the embodiment of the present invention.
As shown in FIG. 2, the transmitting device 2 of the B area transmitting station outputs transmission radio waves toward the receiver 5 in the B area receiving area. Further, the receiver 4 in the A area receiving area outputs the reception status of the transmission radio wave received from the transmitting apparatus 2 in the B area transmitting station to the transmitting apparatus 2 as a reception report using a general public line or the like.
[0029]
According to the reception report input from the receiver 4 in the area A reception area, the overreach reduction control means in the transmission device 2 in the area B transmitting station performs control processing for overreach reduction.
This control process is to control the chilled angle of the antenna or to control the transmission power. Therefore, the overreach reduction control means is means for controlling / adjusting the chilled angle of the antenna, and means for controlling transmission power.
[0030]
As a result, it is possible to eliminate the interference with the transmission radio waves of the own area due to the overreach of the transmission radio waves from other areas, and to receive a stable radio wave at the receiver in the reception area of each area.
[0031]
In the above system, the reception area monitoring / control method according to the embodiment of the present invention is such that the receivers in the reception areas of the respective districts transmit the transmission radio waves of their own area and the transmission radio waves of other areas according to the transmission station number or the delay time. It recognizes and acquires the transmission radio wave of its own area, notifies the reception status of the transmission radio wave of the other area to the transmission device of the other area, and performs overreach reduction control by the transmission device. , It is possible to eliminate the interference of the transmission radio wave in the area caused by the overreach of the transmission radio wave and stabilize the reception state.
[0032]
According to the reception area monitoring / control method and the broadcasting system according to the embodiment of the present invention, the transmitter number or transmission given to the transmission radio wave from the transmission device of each district transmission station at the receiver in each district reception area. Based on the delay time of the reception timing of radio waves, it recognizes the transmission radio waves of its own and other areas and acquires the transmission radio waves of its own area, so the effect of eliminating interference of the transmission radio waves in the area is effective. is there.
[0033]
In addition, according to the reception area monitoring / control method and the broadcasting system according to the embodiment of the present invention, the reception status of the transmission radio waves of other areas recognized by the receivers in the reception areas of each district is used as a reception report. Since the transmission device notifies the transmission device, and the transmission device performs overreach reduction control according to the reception report, the antenna in the transmission device in the other area is controlled to eliminate interference due to the overreach of the transmission radio wave from the other area. In this way, the reception state can be further stabilized.
[0034]
【The invention's effect】
According to the present invention, there is provided a terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and transmissions from a plurality of transmitting stations and transmissions from the transmitting stations within each transmitting station area. and a receiver for receiving a radio wave, for the receiving area monitoring and control how when the receiver receives a radio wave transmitted from the transmitter at the transmission stations other than the area area, transmission of a plurality of transmission stations When each device transmits a different identifier with or without giving a different identifier to the transmission radio wave, and each receiver checks the presence or absence of an identifier in the received transmission radio wave, recognizing whether the transmitted radio waves from other areas of either or otherwise a radio wave transmitted from the own area by an identifier, acquires the radio wave transmitted from the own area, to confirm the identifier without a transmission radio wave received field Next, it recognizes whether it is a transmission radio wave from its own area or a transmission radio wave from other areas depending on the time it receives the transmission radio wave, acquires the transmission radio wave from its own area, and from the recognized other area The transmission status of the transmitting radio wave is notified to the transmitting device of the transmitting station in the other area, and the transmitting device controls the chilled angle of the antenna or the transmission power so as to reduce the transmitting radio wave to the other area according to the notified receiving status. Since control combining both of these is performed, there is an effect that interference due to overreach of transmission radio waves from other areas can be eliminated and only transmission radio waves in the own area can be stably received.
[0035]
Further, according to the present invention, there is provided a terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and the transmission device of a plurality of transmission stations and the transmission device of the transmission station within the area of each transmission station. In a broadcasting system in which the receiver also receives a transmission radio wave from a transmission device at a transmitting station in an area other than the area, the transmitting device at the transmitting station assigns an identifier unique to the transmitting station. It is a transmitter that transmits with or without giving to the transmission radio wave, and the receiver is the transmission radio wave from its own area from the identifier unique to the transmitting station given to the received transmission radio wave, or from other areas other than that if it recognizes a transmission radio wave, wherein the first transmission radio wave confirmation means for acquiring a radio wave transmitted from the own area, whether or it is a radio wave transmitted from the own area by between when you receive transmission waves Recognizing whether the transmitted radio waves from other areas of the outer, the second transmission radio wave confirmation means for acquiring a radio wave transmitted from the own area, the reception status of radio waves transmitted from the recognized other areas of the other areas A receiver comprising a reception status notification means for notifying the transmission device at the transmitting station, and the transmission device controls the chilled angle of the antenna or the transmission power so as to reduce the transmission radio wave to other areas according to the notified reception status. Alternatively, since an overreach reduction control unit that performs control combining both of these is provided, there is an effect that interference due to overreach of transmission waves from other areas can be eliminated and only transmission waves in the own area can be received stably.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a part of a terrestrial digital broadcasting system according to an embodiment of the present invention.
FIG. 2 is a schematic diagram for explaining overreach reduction control according to an embodiment of the present invention.
FIG. 3 is a schematic diagram showing a part of a conventional terrestrial digital broadcasting system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Transmitting device of A district transmitting station, 2 ... Transmitting device of B district transmitting station, 3 ... Repeater, 4 ... Receiver of A district receiving area, 5 ... Receiver of B district receiving area

Claims (2)

A terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and receiving a transmission device from a plurality of transmitting stations and a transmission radio wave from the transmitting device in the transmitting station within the area of each transmitting station In the reception area monitoring and control method when the receiver receives a transmission radio wave from a transmission device in a transmitting station in an area other than the area,
The transmitting devices of the plurality of transmitting stations transmit different identifiers to the transmission radio waves without giving or giving them ,
Each receiver confirms the presence or absence of an identifier in the received transmission radio wave,
When the receiver confirms that there is an identifier in the received transmission radio wave, the receiver recognizes whether it is a transmission radio wave from its own area or a transmission radio wave from other areas by using the identifier, get the radio wave transmitted from,
When the receiver confirms that there is no identifier in the received transmission radio wave, it recognizes whether it is a transmission radio wave from its own area or a transmission radio wave from other areas depending on the time it receives the transmission radio wave. , Get the transmission radio wave from the area,
The receiver notifies the transmission status of the transmission radio wave from the recognized other area to the transmitting device of the transmitting station in the other area using a general public line or wirelessly,
The transmission apparatus performs reception area monitoring / control of antenna tilde angle control or transmission power control or a combination of both so as to reduce transmission radio waves to other areas according to the notified reception status. Control method. A terrestrial digital broadcasting system that transmits broadcast contents using the same frequency, and receiving a transmission device from a plurality of transmitting stations and a transmission radio wave from the transmitting device in the transmitting station within the area of each transmitting station In a broadcasting system in which the receiver receives a transmission radio wave from a transmitting device in a transmitting station in an area other than the area,
The transmitter of the transmitting station is a transmitting apparatus that transmits without giving or not adding an identifier unique to the transmitting station to the transmission radio wave,
The receiver recognizes whether it is a transmission radio wave from its own area or a transmission radio wave from other areas from the identifier unique to the transmitting station given to the received transmission radio wave, A first transmission radio wave confirmation means for acquiring a transmission radio wave, recognizing whether the transmission radio wave is a transmission radio wave from the own area or a transmission radio wave from other areas according to a time for receiving the transmission radio wave, A second transmission radio wave confirmation means for acquiring a transmission radio wave from the receiver, and a reception status notifying means for notifying the transmission device of the transmitting station in the other area of the reception status of the transmission radio wave from the recognized other area. Yes,
The transmission apparatus, transmission apparatus comprising a overreach reduction control means for performing control that combines control or both these chilled angle control or the transmission power of the antenna to reduce the radio wave transmitted to the other areas in accordance with the notified reception status A broadcasting system characterized by

Images